KR20080103167A - A cap of radiator - Google Patents

Abstract

A radiator cap is provided to smoothly circulate the cooling water or the air through a cooling water hole of a stop ring formed the upper part of a negative pressure valve. The radiator cap is composed of a pressure valve(20) opening and closing a cooling water inlet(42) according to the internal temperature change of a radiator, a negative pressure valve(30) opening and closing the flow channel connected with a through-hole(44) formed in the side of the cooling water inlet, a radiator cap detachably combined to the cooling water inlet, and a stop ring(32) formed at the upper part of the negative pressure valve.

Description

Radiator cap {A CAP OF RADIATOR}

1 is a perspective view showing a typical radiator.

Figure 2 is a cross-sectional view showing a typical radiator cap.

3 is a cross-sectional view showing the operation of a conventional radiator cap.

4 is a cross-sectional view showing a radiator cap of the present invention.

5 is a perspective view showing a stop ring.

6 is a cross-sectional view showing the operation of the radiator cap of the present invention.

7 is a table showing the incidence of adhesion according to the negative pressure valve material.

** Description of the symbols for the main parts of the drawings **

10: radiator cap

20: pressure valve 21: lower plate

22: gasket 23: retainer

24: ring 25: elastic plate

26: elastic spring

30: negative pressure valve 31: valve stem

32: stop ring 32a: cooling water distribution hole

42: coolant inlet 43: seating portion

44: through

133 valve body 134: elastic spring

140: radiator 141: header tank

The present invention relates to a radiator cap, and more particularly, in a radiator cap which prevents the radiator from being damaged by a pressure generated by a temperature change inside a radiator, the cooling water distribution hole so that the coolant flows to the upper portion of the negative pressure valve. The formed stop ring is provided with a radiator cap with improved functionality.

The vehicle is provided with a cooling device for cooling the engine and various heat generating parts. The cooling device is generally provided with a circulation pump that circulates the cooling water by receiving power from the engine, and is supplied with coolant in a relatively high temperature state by heat exchange with the engine. It consists of a radiator that is cooled by heat exchange with air and then supplied to the engine again.

1 is a view showing a typical radiator, the radiator 140 is a pair of header tanks 141 disposed at a predetermined distance apart from the upper and lower sides, and both ends are connected between the header tank 141, the cooling water flow path Consists of a tube and a heat dissipation fin interposed between the tube, the upper header tank 141 is formed with a coolant inlet 142 and the coolant inlet 142 is provided with a cap 110 for opening and closing it. .

The cap 110 provided at the end of the coolant inlet 142 to seal the coolant inlet 142 may not only seal the coolant inlet 142 but also replenish coolant lacking in the radiator as necessary, or may cool the inside of the radiator. Used to check the quantity.

Figure 2 shows a conventional radiator cap, the cap 110 is a pressure valve 120 for opening and closing the coolant inlet 142 by the pressure generated in accordance with the change in the coolant temperature inside the radiator, and the pressure valve 120 When the negative pressure is generated inside the radiator, a negative pressure valve 130 is formed between the inside of the radiator and the through hole 144 formed at the side of the cooling water inlet 142.

Here, the pressure valve 120 is in contact with the mounting portion 143 formed inside the cooling water inlet 142, the lower plate 121 having a gasket 122 to open and close the cooling water inlet 142, and the lower plate Retainer 123 fixed to the inner surface of the 121, the cylindrical ring 124 is installed on the retainer 123, the cooling water inlet is interposed between the upper surface of the cap 110 and the ring 124 An elastic plate 125 for sealing the inlet of the 142 and an elastic spring 126 disposed between the elastic plate 125 and the retainer 123 to elastically support the lower plate 121.

In addition, the negative pressure valve 130 is a valve stem 131 which is installed to flow up and down through the lower plate 121 and the gasket 122 of the pressure valve 120, and the valve stem A valve body 133 fixed to a lower portion of the 131 to form a contact portion with the gasket 122, and interposed between an upper end portion of the valve stem 131 and the lower plate 121. It is composed of an elastic spring 134 to elastically support.

The radiator cap 110 is configured such that the pressure valve 120 and the negative pressure valve 130 are organically operated according to the pressure formed in the radiator so that the inside of the radiator maintains a constant pressure.

Figure 3 is a view showing the operation of the conventional radiator cap, as shown in Figure 3 (a), when the temperature of the cooling water flowing in the radiator increases the volume of the cooling water and air charged inside the radiator increases As the pressure increases. As such, when the pressure rises in the radiator, the lower plate 121 elastically supported by the elastic spring 126 is pushed upward due to the pressure, thereby causing the gasket 122 of the lower plate 121 to be pushed upward. Between the seating portions 143 of the cooling water inlet 142 is formed a space capable of flowing the cooling water to air.

As such, the coolant to air charged in the radiator is formed at the side of the coolant inlet 142 through a space formed between the gasket 122 of the lower plate 121 and the seating part 143 of the coolant inlet 142. It overflows to a reservoir tank (not shown) through the aperture 144.

The pressure inside the radiator is reduced by the operation of the pressure valve 130 as described above, and the lower plate 121 is lowered by the elastic spring 126 to seal the cooling water inlet 142.

On the contrary, as shown in FIG. 3 (b), when the temperature of the coolant and air charged in the radiator is lowered due to an engine stop or other reasons, the volume of coolant and air charged in the radiator is reduced. Accordingly the pressure is reduced. When a negative pressure is generated in the radiator as described above, the valve stem 131 elastically supported by the elastic spring 134 is pushed downward, and thus the gasket 122 and the valve body of the lower plate 121 are pushed down. A space in which cooling water and air can flow is formed between the 133. As such, the cooling water or air filled in the reservoir tank (not shown) through the space formed between the gasket 122 and the valve body 133 of the lower plate 121 is formed in the through hole formed on the side of the cooling water inlet 142 ( 144 is introduced into the radiator.

The pressure inside the radiator is increased by the operation of the negative pressure valve 130 as described above, and thus the valve stem 131 is lifted by the elastic spring 134 to thereby gasket 122 of the lower plate 121. And a space between the valve body 133 is sealed.

As described above, in the radiator cap 110 that is organically operated according to the pressure inside the radiator, when a negative pressure occurs in the radiator, a space in which coolant or air flows is narrow so that the volume flow rate of the coolant to air is small per unit time. There was a problem that it does not function.

In addition, the valve body 133 is sustained by the elastic spring 134 elastically supporting the valve stem 131, thereby causing a sticking between the valve body 133 and the gasket 122 It is difficult to operate smoothly, in addition to the gasket 122 and the valve body 133 as the valve body 133 of the negative pressure valve 130 in contact with the gasket 122 is made of stainless steel (SUS) having a high fixing rate There was a problem in that the incidence of sticking increases.

The present invention has been made to solve the above problems, an object of the present invention is provided with a stop ring formed with a cooling water distribution hole in the upper portion of the valve stem constituting the negative pressure valve, the cooling water through the cooling water distribution hole of the stop ring It is to provide a radiator cap with improved function by allowing the air to flow smoothly.

Still another object of the present invention is to provide a radiator cap capable of smoothly operating by making a negative pressure valve in contact with a gasket of a lower plate made of plastic, thereby reducing the fixing rate of the negative pressure valve in contact with the gasket.

Radiator cap according to the present invention for achieving the above object is disposed in the cooling water inlet of the radiator pressure valve for opening and closing the cooling water inlet in accordance with the change in the internal temperature of the radiator, flows up and down on the pressure valve In the radiator cap which is installed so as to be movable, and including a negative pressure valve for opening and closing the flow passage communicating with the through-hole formed in the side of the cooling water inlet, detachably coupled to the cooling water inlet

The upper portion of the negative pressure valve is provided with a stop ring for limiting the flow of the negative pressure valve, the stop ring is characterized in that the cooling water distribution hole through which the coolant flows.

Here, the negative pressure valve is lowered by its own weight to open the flow passage communicating with the through-hole formed on the side of the cooling water inlet, and is raised by the pressure generated by the increase in the temperature inside the radiator through the hole formed on the side of the cooling water inlet It is characterized in that for closing the flow path in communication with.

In addition, the cooling water distribution hole is characterized in that a plurality of radially formed.

In addition, the negative pressure valve is characterized in that formed of a plastic material.

Hereinafter, a radiator according to the present invention having the configuration as described above will be described in detail with reference to the accompanying drawings.

Figure 4 is a cross-sectional view showing a radiator cap of the present invention, Figure 5 is a perspective view showing a stop ring, Figure 6 is a cross-sectional view showing the operation of the radiator cap of the present invention, Figure 7 shows the incidence of sticking according to the negative pressure valve material It is a chart.

4 is a view showing a radiator cap of the present invention, wherein the radiator cap is largely composed of a pressure valve and a negative pressure valve.

When the pressure inside the radiator is increased due to an increase in the volume of the coolant filled in the radiator or the air due to an increase in the temperature of the radiator, the pressure valve 20 opens the cooling water inlet 42 so that the pressure inside the radiator is constant. A lower plate 21 having a gasket 22 to open and close the cooling water inlet 42 by abutting the seating portion 43 formed inside the cooling water inlet 42, and the lower plate 21. The retainer 23 is processed on the inner surface of the c), the cylindrical ring 24 installed on the retainer 23, the upper surface of the cap 10 and the ring 24 is interposed between the cooling water inlet 42 An elastic plate 25 for sealing the inlet of the) and an elastic spring 26 disposed between the elastic plate 25 and the retainer 23 to elastically support the lower plate 21.

In addition, the negative pressure valve 30 installed on the pressure valve 20 and operated when a negative pressure is generated in the radiator passes through the lower plate 21 and the gasket 22 of the pressure valve 20. The valve stem 31 which flows up and down, and the stop ring 32 provided in the upper part of the said valve stem 31 are comprised.

As described above, the radiator cap 10 of the present invention does not require an elastic spring 134 for elastically supporting the valve stem 31 as the valve stem 31 is freely moved up and down by pressure. This prevents sticking between the valve stem 31 and the gasket 22.

FIG. 5 is a view illustrating a stop ring, and a stop ring 32 is provided above the valve stem 31 of the negative pressure valve 30 to limit the lowering of the valve stem 31. The valve stem 31 is lowered downward by its own weight, and the stop ring 32 provided above the valve stem 31 restricts the lowering of the valve stem 31 so that the negative pressure valve 30 is lowered. To maintain a constant position.

In addition, a plurality of cooling water distribution holes 32a are formed in the stop ring 32 to allow the cooling water to flow. The plurality of cooling water distribution holes 32a radially formed in the stop ring 32, when the negative pressure is generated in the radiator, the radiator by increasing the flow rate of the cooling water to the air flowing from the reservoir tank (not shown) Internal pressure regulation is quick.

The shape of the stop ring 32 and the shape and position of the cooling water distribution hole 32a formed in the stop ring 32 are not limited as shown, and the durability and flow rate of the cooling water are considered in consideration of the stop ring 32. Modifications are possible.

6 is a view showing the operation of the radiator cap of the present invention, as shown in Figure 6 (a), when the temperature of the coolant flowing in the radiator increases the volume of the coolant and air filled in the radiator As it increases, the pressure increases.

As such, when the pressure inside the radiator increases, the lower plate 21 elastically supported by the elastic spring 26 as well as the negative pressure valve 30 lowered by its own weight is pushed upwards, thereby causing the Between the gasket 22 of the lower plate 21 and the seating portion 43 of the cooling water inlet 42 is formed a space capable of flowing coolant to air.

As such, the coolant to air filled in the radiator through the space formed between the gasket 22 of the lower plate 21 and the seating portion 43 of the cooling water inlet 42 is formed at the side of the cooling water inlet 42. It overflows to the reservoir tank (not shown) through the aperture 44.

The pressure inside the radiator is reduced by the operation of the pressure valve 20 as described above, and the lower plate 21 is lowered by the elastic spring 26 to seal the cooling water inlet 42.

In contrast to the above, as shown in FIG. 6 (b), when the temperature of the coolant and air charged in the radiator decreases due to an engine stop or other reasons, the volume of the coolant and air charged in the radiator decreases. The pressure is reduced.

When negative pressure is generated in the radiator as described above, the coolant to air filled in the reservoir tank (not shown) through the cooling water distribution hole 32a formed in the stop ring 32 of the negative pressure valve 30 lowered by its own weight. Is introduced into the radiator through the through-hole 44 formed in the cooling water inlet 42 side.

By operating the negative pressure valve 30 as described above, the pressure inside the radiator is maintained in a state close to atmospheric pressure, and thus the valve stem 31 is maintained in a state of being lowered by its own weight.

7 is a diagram showing the incidence of adhesion according to the material of the negative pressure valve, it can be seen that when the negative pressure valve is formed of a plastic material, the incidence of adhesion is significantly lower than that of other materials.

When the negative pressure valve 30 in contact with the gasket 22 is made of a member having a high adhesion incidence such as steel or stainless steel (SUS), the negative pressure valve 30 is fixed to the gasket 22. In this case, the radiator cap 10 may not function properly. Therefore, in general, the negative pressure valve 30 in contact with the gasket 22 made of rubber is preferably made of a plastic material having a low sticking rate.

The present invention is not limited to the above-described embodiments, and the scope of application of the present invention is not limited, and the present invention is not departed from the gist of the present invention as claimed in the claims. Implementation will be possible.

As described above, according to the present invention, by the stop ring provided on the upper portion of the negative pressure valve, the negative pressure valve can maintain a constant position, the amount of cooling water circulated by the cooling water distribution hole formed in the stop ring increases the radiator This has the effect of improving performance and durability.

In addition, since the negative pressure valve which comes into contact with the gasket of the pressure valve is made of plastic, the adhesion rate of the negative pressure valve is lowered, thereby increasing the life of the radiator cap.

Claims (4)

The pressure valve 20 disposed in the cooling water inlet 42 of the radiator 140 to open and close the cooling water inlet 42 according to a change in the internal temperature of the radiator 140, and up and down on the pressure valve 20. A radiator installed to flow and including a negative pressure valve 30 which opens and closes a flow path communicating with a through hole 44 formed at a side of the cooling water inlet 42, and is detachably coupled to the cooling water inlet 42. In the cap 10, An upper portion of the negative pressure valve 30 is provided with a stop ring 32 for restricting the flow of the negative pressure valve 30, and the stop ring 32 has a cooling water distribution hole 32a through which coolant flows. A radiator cap, characterized in that formed. The method of claim 1, The negative pressure valve 30 is lowered by its own weight to open a flow path communicating with the through hole 44 formed at the side of the cooling water inlet 42, and is raised by the pressure generated by the temperature increase inside the radiator. Radiator caps characterized in that for closing the flow path in communication with the through-hole 44 formed on the side of the cooling water inlet (42). The method according to claim 1 or 2, Radiator cap, characterized in that the plurality of cooling water distribution hole (32a) is formed radially. The method of claim 1, The negative pressure valve 30 is a radiator cap, characterized in that formed of a plastic material.

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